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参数资料
| 型号: | MAX8513EVKIT |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 18/35页 |
| 文件大小: | 0K |
| 描述: | EVAL KIT FOR MAX8513 |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 1 |
| 主要目的: | DC/DC,LDO 步降 |
| 输出及类型: | 3,非隔离 |
| 输出电压: | 3.3V,2.5V,12V |
| 电流 - 输出: | 2A,1.5A,100mA |
| 输入电压: | 9 ~ 16 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 1.4MHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | MAX8513 |
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�Wide-Input,� High-Frequency,� Triple-Output� Supplies�
�with� Voltage� Monitor� and� Power-On� Reset�
�Thermal-Overload� Protection�
�Thermal-overload� protection� limits� the� total� power� dissi-�
�pation� in� the� MAX8513/MAX8514.� When� the� junction�
�temperature� exceeds� T� J� =� +170°C,� a� thermal� sensor�
�shuts� down� the� device,� forcing� DL� and� DH� low� and�
�value� allows� for� a� smaller� inductor� but� results� in� higher�
�losses� and� higher� output� ripple.� A� good� compromise�
�between� size� and� efficiency� is� a� 30%� LIR.� Once� all� of�
�the� parameters� are� chosen,� the� inductor� value� is� deter-�
�mined� as� follows:�
�allowing� the� IC� to� cool.� The� thermal� sensor� turns� the� part�
�on� again� after� the� junction� temperature� cools� by� 25°C,�
�resulting� in� a� pulsed� output� during� continuous� thermal-�
�overload� conditions.� During� a� thermal� event,� the� main�
�L� =�
�V� OUT� 1� � (� V� IN� -� V� OUT� 1� )�
�V� IN� � f� S� � I� OUT� 1� _� MAX� � LIR�
�R� 1� =� R� 2� � ?� OUT� 1� -� 1� ?�
�step-down� converter� and� the� linear� regulators� are� turned�
�off,� POR� and� PFO� go� low,� and� soft-start� is� reset.�
�Design� Procedure�
�OUT1� Voltage� Setting�
�The� output� voltage� is� set� by� a� resistive-divider� network�
�from� OUT1� to� FB1� to� GND� (see� R1� and� R2� in� the�
�Typical� Applications� Circuits� ).� Select� R2� between� 5k� ?�
�and� 15k� ?� .� Then� R1� can� be� calculated� by:�
�?� V� ?�
�?� 1� .� 25� V� ?�
�Input� Power-Fail� Setting�
�The� PFI� input� can� monitor� V� IN� to� determine� if� it� is� falling.�
�When� the� voltage� at� PFI� crosses� 1.22V,� the� output�
�(� PFO� )� goes� low.� The� input� voltage� value� at� the� PFI� trip�
�where� V� OUT1� is� the� main� switching� regulator� output� and�
�f� S� is� the� switching� frequency.�
�Choose� a� standard� value� close� to� the� calculated� value.�
�The� exact� inductor� value� is� not� critical� and� can� be�
�adjusted� to� make� tradeoffs� between� size,� cost,� and� effi-�
�ciency.� Lower� inductor� values� minimize� size� and� cost,�
�but� also� increase� the� output� ripple� and� reduce� the� effi-�
�ciency� due� to� higher� peak� currents.� On� the� other� hand,�
�higher� inductor� values� increase� efficiency,� but� eventual-�
�ly� resistive� losses� due� to� extra� turns� of� wire� exceed� the�
�benefit� gained� from� lower� AC� current� levels.� Find� a� low-�
�loss� inductor� with� the� lowest� possible� DC� resistance� that�
�fits� the� allotted� dimensions.� Ferrite� cores� are� often� the�
�best� choice,� although� powdered� iron� is� inexpensive� and�
�can� work� well� up� to� 300kHz.� The� chosen� inductor’s� satu-�
�ration� current� rating� must� exceed� the� peak� inductor� cur-�
�rent� as� calculated� below:�
�threshold,� V� PFI� ,� is� set� by� a� resistive-divider� network�
�from� IN� to� PFI� to� GND� (see� the� Typical� Applications�
�Circuits� ).� Select� R11,� the� resistor� from� PFI� to� GND�
�I� PEAK� =� I� OUT� 1� _� MAX� +�
�(� V� IN� -� V� OUT1� )� � V� OUT� 1�
�2� � L� � f� S� � V� IN�
�between� 10k� ?� and� 40k� ?� .� Then� R10,� the� resistor� from�
�PFI� to� IN,� is� calculated� by:�
�This� peak� value� should� be� smaller� than� the� value� set� at�
�ILIM� when� V� OUT1� is� at� its� nominal� regulated� voltage� (see�
�R� 10� =� R� 11� � ?�
�-� 1� ?�
�?� V� PFI�
�?� 1� .� 22� V�
�?�
�?�
�the� Current� Limit� and� Current-Limit� Setting� sections).�
�In� applications� where� a� multiple� winding� inductor� (cou-�
�pled� inductor)� is� used� to� generate� the� supply� voltages�
�Switching-Frequency� Setting�
�The� resistor� connected� from� FREQ� to� GND,� R� FREQ� (R7�
�in� the� Typical� Applications� Circuits� ),� sets� the� switching�
�frequency,� f� S� ,� as� shown� by� the� equation� below:�
�for� the� LDOs,� the� inductance� value� calculated� above� is�
�for� the� winding� connected� to� the� DC-DC� step-down�
�(primary� windings)� inductance.� The� inductance� seen�
�from� the� other� windings� (secondary� windings)� is� pro-�
�portional� to� the� square� of� the� turns� ratio� with� respect� to�
�f� S� =�
�15� � 10� 9�
�R� FREQ�
�Hz� � ?�
�the� primary� winding.�
�The� turns� ratio� is� important� since� it� sets� the� LDOs’� sup-�
�ply� voltage� values.� The� voltage� generated� by� the� sec-�
�where� R� FREQ� is� in� ohms.�
�ondary� winding� (V� SEC� )� together� with� the� rectifier� diode�
�and� output� capacitor� is� calculated� as� follows:�
�)� � ?� ?� nn� 2� ?� ?� -� V� D2�
�Inductor� Value�
�There� are� several� parameters� that� must� be� examined�
�when� determining� which� inductor� to� use:� input� voltage,�
�output� voltage,� load� current,� switching� frequency,� and�
�V� SEC� =� (� V� OUT� 1� +� V� Q� 2�
�?� ?�
�1�
�LIR.� LIR� is� the� ratio� of� peak-to-peak� inductor� ripple� cur-�
�rent� to� the� maximum� DC� load� current.� A� higher� LIR�
�where� V� Q2� and� V� D2� are� the� voltage� drops� across� the�
�low-side� MOSFET� on� the� primary� side� and� the� rectifier�
�18�
�______________________________________________________________________________________�
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